DE1789052A1 - Arrangement for starting discharge lamps, especially fluorescent lamps, without a starter - Google Patents

Description

Arrangement for starterless ignition of discharge lamps, especially fluorescent lamps

The invention relates to an arrangement for the starterless ignition of a ballast, in particular one Inverter, operated discharge lamps with preheated electrodes and an outer electrode as a capacitive starting aid as well as a capacitor, which is charged to a peak voltage via a rectifier and then automatically via the Discharge path of the lamp is discharged.

To ignite fluorescent lamps, it is known to first preheat the heating coils of the lamp and between the Electrodes of the lamp to apply the no-load ignition voltage, the initiates ignition under normal temperature conditions. In the case of starterless circuits, an auxiliary ignition voltage is often used used, which is applied to an ignition strip or to metal parts of the lamp and by a glow discharge causes the lamp to ignite. In general, the auxiliary ignition voltage of the ignition strip is higher than that on the lamp electrodes applied open circuit voltage. To at low supply voltages or low ambient temperatures of the lamp to achieve reliable ignition, would have to be between the ignition aid and the lamp has a very high voltage, but this is not desirable for safety reasons.

In order to achieve ignition under unfavorable operating conditions, e.g. at extreme tube wall temperatures of the lamp It is also known to increase the ignition voltage for the discharge lamp by using capacitors in the lamp current path (German Auslegeschrift 1 042 116). The capacitors are

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ORIGINAL INSPECTED

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rectifier connected in parallel to a corresponding peak voltage charged and then connected in series over the discharge path by a mechanical switching device discharged from the lamp. This embodiment has the disadvantage that a mechanically operated switching device is used to ignite the lamp is required.

There is also a circuit arrangement has become known in which the lamp is connected to a leakage transformer, the The secondary winding supplies the operating voltage for the lamp and the one with heating windings for the electrode preheating is provided (German Auslegeschrift 1 098 608).

A capacitor connected between the secondary winding supplying the operating voltage and a lamp electrode is also connected A DC voltage is charged so slowly that it is only then when the lamp is within the range provided for normal ignition Time has not ignited, has reached the final value of its charging voltage and its DC voltage that of the lamp electrodes superimposed open circuit voltage of the transformer. Included the lamp is pre-ionized by the external electrode connected to the transformer via a protective resistor initiated. In certain operating conditions, the lamp can be ignited in this way. To Once the lamp has been ignited, the DC voltage is no longer effective. '

In this known embodiment, a glow discharge can occur through the external electrode in the lamp at lower temperatures caused, which absorbs so much energy that a sufficient charge of the capacitor via the rectifier no longer takes place, causing a Dunhbruch of the discharge to one Could cause an arc discharge. The discharge in the lamp then remains in the state of glow discharge.

There is also a circuit arrangement ζψα starterless ignition

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known from low-voltage fluorescent lamps (German Auslegeschrift 1 144 401), which are provided with starting aid strips arranged on the outside of the lamp, to which in a resonance circuit generated voltages are applied, the occurrence of which to ensure sufficient electrode preheating by a NTC thermistor lying in the resonance circuit is delayed. This circuit can also have starting difficulties at low temperatures result.

It is also known to use gas-filled fluorescent tubes with high-frequency electricity to feed to increase the light output of the lamp (Austrian patent 194 007). In this version a self-excited generator is used to generate the high-frequency current, the output of which is via a couplinginipedance is coupled to an operating circuit which has at least one gas-filled light vessel with an impedance in series with this Here, however, reactive currents impair the efficiency.

The object of the invention is to overcome the shortcomings of the known arrangements su fix. In an arrangement of the type mentioned at the outset, this is achieved in that a capacitive ignition circuit is provided, which consists of the series connection of a line pole of an AC voltage source, a temperature-dependent Resistance, the outer electrode, the gas discharge path of the discharge lamp, a lamp electrode, a heating winding of the ballast, the capacitor, a secondary winding and another heating winding of the ballast and the other line pole of the AC voltage source, the AC voltage source having a frequency of at least 10 KHz, in particular 15 to 20 KHz, and the temperature-dependent resistance is dimensioned such that the capacitive auxiliary ignition current causes the lamp to ignite only after the capacitor in the lamp circuit has been charged.

Due to the high frequency of the auxiliary ignition voltage and its delayed Apply via the temperature-dependent resistor

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A sufficiently large ignition current for pre-ionization and ignition of the lamp is ensured even at very low temperatures without further increasing the auxiliary ignition voltage and without additional measures on the outer electrode. In addition, it is possible to significantly reduce the open circuit voltage for the lamp compared to the usual open circuit voltage, for example to a value that is less than or equal to twice the operating voltage of the discharge lamps. As a result, the reactive power components of the circuit are greatly reduced and the compensation ratios are improved in such a way that the heating of the inverter device is negligibly small. This results in a better efficiency and the advantage that the inverter device can be exposed to a significantly higher ambient temperature. At the same time, operational reliability is significantly increased. Furthermore, by quickly charging the capacitor with the. The delaying effect of the ignition potential ensures that in all cases, even at the lowest temperatures (e.g. -4O ⁰ C) and with reduced connection voltage, a safe, sudden ignition of the lamp for arc discharge is guaranteed without the lamp getting stuck in the glow discharge state.

The invention is explained in more detail with reference to the exemplary embodiments shown in FIGS. In Fig. 1 is the lamp connected to a secondary winding 2 of a transformer, the component of an inverter circuit, not shown, fed by a supply voltage via terminals 3a 3 is. Serve to increase the open circuit voltage for the lamp Capacitors 4> which are charged via rectifier 5 and then discharged via the discharge path of lamp 1. To the automatic discharge of the capacitor is used in the arrangement according to the invention, a capacitively acting external one Electrode 6, which is connected to an auxiliary ignition winding 8 of the transformer via a temperature-dependent resistor 7 is. The inverter works with a frequency of e.g. 15 kHz. The capacitors 4 are via rectifier 5 and

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the series resistors 9 charged in parallel. The tempera bur-dependent resistor 7 is dimensioned such that a capacitive auxiliary ignition current can cause the lamp to ignite only after the capacitors have been charged. In the Ignition of the lamp, the capacitors are discharged in series with one another via the lamp electrodes 1a. Doing this during of the delayed ignition, the lamp electrodes are preheated by the windings 2a.

It is useful, as shown in Fig. 2, to connect the outer electrode to the connection point 11 of a ^{voltage divider formed from the temperature-dependent resistor 7 and an ohm 1} see resistor 10 and the outer ends 12 of this voltage divider to such terminals 13> H of the transformer To connect secondary windings that have as large a potential difference as possible. As a result, compared to the simplified version according to Pig. 1 the heating of the thermistor by the circuit; Terminal 13 - temperature-dependent resistor (NTC thermistor) 7 - resistor 10 - terminal 14 Series connection of the transformer windings 2a, 2, 2a and causes the lamp to ignite suddenly after the desired delay regardless of the configuration of the outer electrode (the lighting fixture). Advantageously, the resistors 7, 10 of the voltage divider are dimensioned so that "when the resistors are cold, a potential is established at the outer electrode of the lamps which is as close as possible to the middle of the potentials of both lamp electrodes 1a.

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Claims (2)

Claims 1. Arrangement for starterless ignition via a ballast, in particular an inverter, operated discharge lamps, preferably fluorescent lamps, f with preheated Electrodes and an outer electrode as a capacitive ignition aid as well as a capacitor, which has a rectifier charged to a peak voltage and then automatically discharged via the discharge path of the lamp, characterized in that a capacitive ignition circuit is provided which consists of a series connection of a line pole an alternating voltage source (8), a temperature-dependent resistor (7)> the outer electrode (6), the gas discharge path of the discharge lamp (1), one Lamp electrode (1a), a heating winding (2a) of the Yor - switching device (3), the capacitor (4), a secondary winding (2) and another heating coil (2a) of the ballast (3) and the other line pole of the AC voltage source (8), the AC voltage source having a frequency of at least 10 kHz, in particular 15 to 20 kHz, and the temperature-dependent resistor (7) is dimensioned such that the capacitive Auxiliary ignition current to ignite the lamp (1) only after charging of the capacitor (4) in the lamp circuit. 2. Arrangement according to claim 1, characterized in that the ignition electrode (6) is connected to the connection point (11) of a ^{voltage divider formed from the temperature-dependent resistor (7) and an ohm 1} see resistor (10) and that the outer ends' ( 12) of this voltage divider are connected to terminals (13, 14) of the transformer secondary windings which have as large a potential difference as possible. New documents (Art7 | 1Ai ".2Nr.TS" tz3dMXMtanmga0M.v.4.9.19e7k 109882/0720 - 7 - VPA 68/8278 Arrangement according to claim 2, characterized in that the resistors (7, 10) of the voltage divider are dimensioned so that when the resistors are cold, the capacitive ignition electrode of the lamp sets a potential that is at least approximately in the middle between the potentials both lamp electrodes (1a). 109882/0720 Blank page